CN105627426A - Wall-mounted type air conditioner indoor unit - Google Patents

Abstract

The invention discloses a wall-mounted type air conditioner indoor unit. The wall-mounted type air conditioner indoor unit comprises a shell; an air outlet is formed in the front lower portion of the shell; side air inlets are formed in the side faces of the shell; heat exchangers corresponding to the side air inlets are formed inside the shell; a rear air inlet is formed in the rear lower portion of the shell; an air supplying device is formed inside the shell; a volute and a centrifugal fan located inside the volute are formed inside the shell and above the air supplying device; the air outlet portion of the volute faces towards hot exchange air flues in the air supplying device and is provided with an annular surrounding part extending towards the air supplying device and annularly surrounding the hot exchange air flues; mixed air cavities are formed between the annular surrounding part and the hot exchange air flues; the air inlet portions of the volute face towards the heat exchangers; and first drainage rings located inside the volute and second drainage rings located outside the volute and between the air inlet portions of the volute and the heat exchangers are formed on the air inlet portions of the volute. The wall-mounted type air conditioner indoor unit can supply soft mixed air of the proper temperature with low noise and large volume.

Description

Wall-hanging indoor unit of air conditioner

Technical field

The invention belongs to air-conditioning technique field, specifically, relate to a kind of air conditioner room unit, more specifically, relate to a kind of wall-hanging indoor unit of air conditioner.

Background technology

Existing wall-hanging indoor unit of air conditioner is strip, offers strip air outlet on indoor set, and the wind after heat exchanger heat exchange directly blows out from air outlet under the effect of internal axial-flow fan, and the wind blown out is entirely heat exchange wind. General, between heat exchanger and air outlet, it is not provided with extra air-supply arrangement. One shortcoming of this air-conditioning is that air quantity is less owing to the wind sent is entirely heat exchange wind, and indoor wind circulation rate is slow; Another disadvantage is that the wind sent is soft not, especially in cooling mode, the cool breeze blown out is directly blown onto with user, and user feels uncomfortable.

For solving the problems referred to above, present applicant has proposed a kind of wall-hanging indoor unit of air conditioner, by arranging centrifugal fan and air-supply arrangement in indoor set, it is capable of wall-hanging indoor unit of air conditioner and sends that air quantity is big, the soft mixing wind of proper temperature, improve the mobility and homoiothermic that use wall-hanging indoor unit of air conditioner time space air. but, restriction by indoor set space, in this kind of indoor set, centrifugal fan size can not be too big, in centrifugal fan, the air inlet of spiral case is without too big, and the air inlet of centrifugal fan is close apart from indoor pusher side air inlet and heat exchanger, therefore, the wind speed being drawn into spiral case air inlet is uneven, wind speed cannot be arranged by spiral case air inlet fully, eddy current is formed in air inlet thus as easy as rolling off a log, cause air inlet windage big, not only result in intake volume loss big, affect indoor set draft capacity, and air intake noise is big, it is difficult to the requirement reaching user to wall hanging machine low noise.

Summary of the invention

It is an object of the invention to provide a kind of wall-hanging indoor unit of air conditioner, to realize sending the low noise of the indoor set of the soft mixing wind of proper temperature and Wind Volume air-supply.

For achieving the above object, the present invention adopts following technical proposals to be achieved:

A kind of wall-hanging indoor unit of air conditioner, including housing, it is formed with air outlet in the front lower place of described housing, it is formed with side air inlet in the side of described housing, the heat exchanger corresponding with described side air inlet it is formed with in described housing, it is formed with the rear air inlet corresponding with described air outlet in the back lower place of described housing, it is formed with air-supply arrangement in described housing, described air-supply arrangement includes in the middle of at least two through, there is the wind guiding member of front and back opening, it is arranged in order before and after described wind guiding member, through air channel through before and after intermediate formation, described through air channel connects described air outlet and described rear air inlet, heat exchange wind air channel is formed between wind guiding member described in adjacent two, in described housing, being formed above spiral case and be positioned at the centrifugal fan of described spiral case of described air-supply arrangement, the outlet section of described spiral case is towards described heat exchange wind air channel, the outlet section of described spiral case is formed the ring bag portion in heat exchange wind air channel described in the extension of oriented described air-supply arrangement, ring bag, between described ring bag portion and described heat exchange wind air channel, forms mixed wind chamber, the inlet section of described spiral case towards described heat exchanger, is formed at the first draining ring within described spiral case with at described scroll outer, the second draining ring between described spiral case inlet section and described heat exchanger on the inlet section of described spiral case.

Wall-hanging indoor unit of air conditioner as above, described second draining ring includes from described heat exchanger to the arc conduction part of described spiral case internal direction bore convergent, the bore of described arc conduction part drain rear end less than the bore of described first draining ring drain front end, forms described arc conduction part at the first draining ring interior, described inner-outer sleeve stacked flow guiding structure outside.

Wall-hanging indoor unit of air conditioner as above, is formed with flanging outside described arc conduction part, described flanging is formed installation portion, and described second draining ring is arranged on described spiral case by described installation portion.

Wall-hanging indoor unit of air conditioner as above, described flanging includes the first flange and the second flange that are sequentially connected with, described first flange and described second flange form L-type structure, described first flange is connected with the closing of described arc conduction part drain front end away from one end of described second flange, and described installation portion is formed on described second flange.

Wall-hanging indoor unit of air conditioner as above, it is formed with air-inducing passage between drain rear end and the drain front end of described first draining ring of described arc conduction part, being formed with cannelure between described first flange and described arc conduction part, the opening of described cannelure is towards described air-inducing passage.

Wall-hanging indoor unit of air conditioner as above, forms the height of described arc conduction part of described cannelure medial wall less than the height of described first flange forming described ring slot outside wall.

Wall-hanging indoor unit of air conditioner as above, in described air-supply arrangement near open front and the described air outlet of the front end wind guiding member of described air outlet all with top forward, bottom rearwardly direction downward-sloping.

Preferably, the angle that the open front of described front end wind guiding member is downward-sloping with described air outlet is 4 ��-45 ��.

Wall-hanging indoor unit of air conditioner as above, described ring bag portion downwardly with respect to described air-supply arrangement flaring, forms the mixed wind chamber of inner chamber flaring from the top being connected with the outlet section of described spiral case in the described air-supply arrangement left and right sides.

Wall-hanging indoor unit of air conditioner as above, described spiral case outlet section with top backward, bottom incline direction forward is towards described heat exchange wind air channel.

Compared with prior art, advantages of the present invention and having the benefit effect that

The wall-hanging indoor unit of air conditioner of the present invention is by arranging air-supply arrangement in lower housing portion, at air-supply arrangement, centrifugal fan is set, at centrifugal fan towards the ring bag portion in formation ring bag heat exchange wind air channel on the outlet section in heat exchange wind air channel, utilize the mixed wind chamber that ring bag portion is formed that the heat exchange wind in internal for indoor set air channel is carried out combing, buffering, then uniformly it is sent in air-supply arrangement along the circumferential direction of air-supply arrangement, utilize the negative pressure formed in through air channel to carry out the non-heat exchange wind of non-heat exchange outside introducing portion and participate in the air-out that air-conditioning is last, increase the overall intake of air-conditioning, accelerate the flowing of room air, further increase the overall uniformity of room air. and, such mixing air is comparatively soft, blows to and can feel more comfortable with user, improves user's comfortableness experience effect. and, it is respectively provided with draining ring by and scroll outer internal at spiral case, draining ring outside utilizing extends the length of spiral case inner draft ring, add the length of draining ring drainage channel, wind after exchanger heat exchange first enters back into after outside draining ring carries out pretreatment and carries out inner draft process in spiral case air inlet, effectively reduce air intake eddy current, decrease spiral case air intake resistance, air intake noise is reduced while improving intake, and then improve the air-out volume of indoor set, reduce indoor set operating noise.

After reading in conjunction with the accompanying the specific embodiment of the present invention, the other features and advantages of the invention will become clearer from.

Accompanying drawing explanation

Fig. 1 is one of axonometric chart of one embodiment of wall-hanging indoor unit of air conditioner of the present invention;

Fig. 2 is the two of the axonometric chart of one embodiment of wall-hanging indoor unit of air conditioner of the present invention;

Fig. 3 is the side view of one embodiment of wall-hanging indoor unit of air conditioner of the present invention;

Fig. 4 is the sectional side elevation that one embodiment edge of wall-hanging indoor unit of air conditioner of the present invention is parallel to air-supply arrangement axis direction;

Fig. 5 is the sectional side elevation that one embodiment edge of wall-hanging indoor unit of air conditioner of the present invention is perpendicular to air-supply arrangement axis direction;

Fig. 6 is the decomposition chart of one embodiment of wall-hanging indoor unit of air conditioner of the present invention;

Fig. 7 is the sectional view of Fig. 6 peripheral draining ring.

Detailed description of the invention

In order to make the purpose of the present invention, technical scheme and advantage clearly understand, below with reference to drawings and Examples, the present invention is described in further detail.

First, a brief description is made in the technical term related in this detailed description of the invention: following mention each structural member forward and backward or left and right time, be define with position relative to user under structural member normal operating condition; When forward and backward or left and right description is carried out for the arrangement position of multiple structural members, it also it is the definition done relative to the position of user under normal operating condition of the device constituted with multiple structural members. Following heat exchange wind refers to the wind inside air-conditioning, after exchanger heat exchanges; Non-heat exchange wind refers to the wind from air-conditioning local environment space, is for heat exchange wind, is not directly from the wind in heat exchanger; Mixing wind refers to the wind that heat exchange wind and non-heat exchange wind are mixed to form.

Refer to an embodiment of the wall-hanging indoor unit of air conditioner of the present invention shown in Fig. 1 to Fig. 7.

Wherein, Fig. 1 and Fig. 2 is two axonometric charts of this embodiment, and Fig. 3 is the side view of this embodiment, and Fig. 4 and Fig. 5 is along the sectional side elevation parallel and perpendicular to air-supply arrangement axis direction respectively in this embodiment, Fig. 6 is the decomposition chart of this embodiment, and Fig. 7 is the sectional view of Fig. 6 peripheral draining ring.

The wall-hanging indoor unit of air conditioner of this embodiment includes fore shell 11 and back cover 12, both detachable connections, forms the housing of indoor set. Preferably, the orthographic projection of fore shell 11 and back cover 12 is circle or sub-circular, that is, fore shell contour line and back cover contour line (not marking in figure) are circle or sub-circular. Thus, the orthographic projection of whole indoor set is also circular or sub-circular so that whole indoor set unique outlook is attractive in appearance, is totally different from the wall-hanging indoor unit of air conditioner of existing strip, meets the personalized aesthetic requirement of user.

Concrete, the structure of fore shell 11 is: in the surface of fore shell 11, and fore shell top 111 and fore shell bottom 112 are all to after-contraction, and 113 forwardly convex in the middle part of fore shell, thus so that the surface of fore shell 11 presents the cambered surface of receipts in up and down, middle part evagination. And back cover 12 is positioned at the region that fore shell 11 limits. That is, the outer contour of fore shell 11 is positioned at outside the outer contour of back cover 12. Thus, the area that wall-hanging indoor unit of air conditioner presents is the area of fore shell 11, and by its upper and lower to after-contraction, from front, the overall dimensions of fore shell 11 is little. In addition middle part evagination, it is possible to arrangement areas is bigger when profile is smaller, in housing heat exchanger, the centrifugal fan etc. that absorbing quantity is big so that indoor set meets refrigeration, air quantity demand when heating and homoiothermic requirement. In the bottom of fore shell 11, it is formed with air outlet 114 at fore shell bottom 112 place specifically. Air outlet 114 is formed on surface on the fore shell bottom 112 of after-contraction, and this air outlet 114 with top forward, bottom incline direction backward formed, its angle of inclination is ��, meets: 4 ��ܦ���45 ��. It is furthermore preferred that be about 10 ��. Air outlet 114 is so set, coordinate the structural design of follow-up air-supply arrangement 3, make the enough forward downward flowings of wind energy sent from air outlet 114, effectively prevent that indoor set is arranged on higher position, room, the air-out of air outlet is upwards blown to ceiling and affects indoor air-supply air quantity and thermoregulator problem.

Back cover 12 is as the major part of housing, and its thickness is more than the thickness of fore shell 11. And, the cylindrical structure of back cover 12 main body, including back plate 121 and sidewall 122, in the middle of two parts, surround bigger accommodation space, in order to hold, to arrange the miscellaneous part of indoor set, such as heat exchanger, centrifugal fan, drip tray, spiral case etc. Arranged on left and right sides at sidewall 122 has been symmetrically formed the first side air inlet 1221 and the second side air inlet 1222, the two side air inlet comprises preferably multiple mutual disconnected air inlet, compared with existing air-inlet grille, intake volume is big, and easily cleans dust and foreign material. When forming as one, fore shell 11 is connected with sidewall 122. Machine face is seen indoor, first side air inlet 1221 and the second side air inlet 1222 are respectively positioned in the region that fore shell 11 limits, therefore, two side air inlets of air outlet 114 distance that fore shell 11 bottom is formed farther out, will not produce the chaotic problem of wind between air port and air inlet.

And, back plate 121 having installed surface 1211, installed surface 1211 is formed wallboard 1212, indoor set is fixed on wall by wallboard 1212. Back plate 121 is also formed with breach 1213, this breach 1213 includes the first face 1214 that is vertical with installed surface 1211 and that connect and remotely mounted face 1,211 second face 1215 parallel with installed surface 1211, second face 1215 is formed rear air inlet 1217, and the position of this rear air inlet 1217 is corresponding with before and after the air outlet 114 on fore shell 11. It is furthermore preferred that be formed with air-inlet cavity 1216 on the first face 1214, rear air inlet 1217 part is positioned at this air-inlet cavity 1216. Adopt said structure, after indoor set is arranged on wall, reserve air intake cavity for rear air inlet 1217, it is achieved the without hindrance air intake of rear air inlet 1217, improve air-conditioning performance. And, will not because of cavity reserve excessive, reduce the area of installed surface 1211 and affect installation strength.

The enclosure interior formed at fore shell 11 and back cover 12 is provided with heat exchanger, air-supply arrangement 3, centrifugal fan 4, spiral case 5 and ring bag portion 6. Corresponding with the first side air inlet 1221 and the second side air inlet 1222, heat exchanger includes being positioned at the First Heat Exchanger 21 inside the first side air inlet 1221 and is positioned at the second heat exchanger 22 inside the second side air inlet 1222.

Specifically, air-supply arrangement 3 is arranged below, and includes three from front to back namely the wind guiding member being arranged in order toward back cover 12 direction from fore shell 11, respectively front end wind guiding member 31, middle wind guiding member 32 and rear end wind guiding member 33. The these three wind guiding member that front and back are arranged in order is annular. Wherein, front end wind guiding member 31 centre is through, have former and later two openings, respectively the outlet of mixing wind and air inlet (not marking in figure); Middle wind guiding member 32 centre is through, have former and later two openings, respectively air outlet and air inlet (not marking in figure); Rear end wind guiding member 33 centre is through, have former and later two openings, respectively air outlet and non-heat exchange wind inlet (not marking in figure). After being arranged in order before and after front end wind guiding member 31, middle wind guiding member 32 and rear end wind guiding member 33, the through air channel (not marking in figure) of through all three wind guiding member before and after intermediate formation. And, air outlet 114 is connected by this through air channel with rear air inlet 1217, and the mixing wind outlet of front end wind guiding member 31 is docked with air outlet 114 phase, and the non-heat exchange wind inlet of rear end wind guiding member 33 docks with rear air inlet 1217 phase. It is formed with the first heat exchange wind air channel 34 between front end wind guiding member 31 and middle wind guiding member 32, between middle wind guiding member 32 and rear end wind guiding member 33, is formed with the second annular heat exchange wind air channel 35. And, the two heat exchange wind air channel is annular.

Centrifugal fan 4 is arranged on the top of air-supply arrangement 3, and is positioned at spiral case 5. Centrifugal fan 4 is preferably the dual suction type centrifugal fan that the rotor of motor 41 is external, and the axis z1 of its axis z2 and air-supply arrangement 3 is mutually perpendicular to. And then, it is possible to effectively utilize enclosure interior space, it is simple to the fan length increasing centrifugal fan 4 improves air quantity and the heat exchange efficiency of indoor set, reduces power consumption. Corresponding, spiral case 5 has symmetrical first inlet section 51 and the second inlet section 52, and the opening of two inlet sections is all outwardly. Specifically, the first inlet section 51 is towards First Heat Exchanger 21, and the second inlet section 52 is towards the second heat exchanger 22, and spiral case 5 can suck the wind after exchanger heat exchanges from the left and right sides under the effect of centrifugal fan 4.

Being formed with the draining ring 71 being positioned within spiral case 5 on the first inlet section 51 and be positioned at the external drainage ring 72 outside spiral case 5, wherein, external drainage ring 72 is between the first inlet section 51 and First Heat Exchanger 21. Symmetrical, the second inlet section 52 is formed the draining ring 73 being positioned within spiral case 5 and is positioned at the external drainage ring 74 outside spiral case 5, wherein, external drainage ring 74 is between the second inlet section 52 and the second heat exchanger 22.

By arranging inside and outside two draining rings in each inlet section of spiral case 5, when spiral case 5 limited length, cannot arrange longer interior draining ring carry out drain, the length of draining ring in utilizing external drainage ring to extend, it is achieved increase the purpose of complete machine drainage channel length. And, wind after exchanger heat exchange first passes through outside draining ring and carries out preliminary finish, then enters into spiral case 5 then through the inlet section of spiral case 5 internal, effectively reduces the eddy current of inlet section, decrease spiral case air intake resistance, and then also reduce air intake noise while improving intake.

Below to form interior draining ring 71 on the first inlet section 51 and external drainage ring 72, the structure of detailed description draining ring, specific as follows:

It is internal that interior draining ring 71 is positioned at the spiral case 5 inside the first inlet section 51, overall in from the arcuate structure of the first inside bore convergent in inlet section 51. It is drain front end 711 near one end of the first inlet section 51, and relative with drain front end 711, internally positioned one end is drain rear end. External drainage ring 72 include from heat exchanger 21 to spiral case 5 internal direction namely for spiral case 5 the arc conduction part 721 of direction bore convergent from outer to inner, this arc conduction part 721 has the drain front end 7211 of close First Heat Exchanger 21 and drain rear end 7212 relative with this drain front end 7211, close first inlet section 51, and the bore of drain front end 7211 is more than the bore of drain rear end 7212. And, the bore of arc conduction part 721 drain rear end 7212 is less than the bore of interior draining ring 71 drain front end 711, thus, form arc conduction part 721 at draining ring 71 interior, interior inner-outer sleeve stacked flow guiding structure outside so that arc conduction part 721 arrange after wind energy enough concentrate, stably enter in draining ring 71.

Arc conduction part 721 is also formed with flanging 722. Specifically, flanging 722 includes the first flange 7221 and the second flange 7222 being sequentially connected with, and two flange form L-type structure. And, the first flange 7221 is closed with the drain front end 7211 of arc conduction part 721 away from one end of the second flange 7222 namely one end of not being connected with the second flange 7222 and is connected. Thus, form cannelure 723 between the first flange 7221 and arc conduction part 721. Second flange 7222 is formed the multiple installing holes 7223 as installation portion, when draining ring 72 is assembled to the first 51 place, inlet section of spiral case 5 outside, spiral case 5 sidewall of the second flange 7222 and the first periphery, inlet section 51 fits, drivescrew in installing hole 7223, it is achieved the installation of whole external drainage ring 72 and spiral case 5. And, after being seated by external drainage ring 72, between the drain front end 711 of arc conduction part 721 and interior draining ring 71, it being formed with air-inducing passage 8, the opening of cannelure 723 is towards air-inducing passage 8.

By draining ring 72 outside is formed cannelure 723, when wind after heat exchange enters into rectification in arc conduction part 721, inside part arcuately conduction part 721, the sinuous flow in drain face can enter into combing in cannelure 723, buffering, form uniform air-flow, then air-inducing passage 8 is entered into from the outlet of cannelure 723, and then enter in interior draining ring 71, further reduce because mixed and disorderly air-flow enters into the problem that wind loss is big, noise is big produced in spiral case 5. Preferably, the height forming the arc conduction part 721 of cannelure 723 medial wall is less than the height of the first flange 7221 forming arcuate groove 723 lateral wall, is beneficial to the sinuous flow in drain face inside arc conduction part 721 and enters into smoothly in cannelure 723.

It is arranged on the interior draining ring 73 that spiral case 5 second inlet section 52 goes out and is also adopted by the identical structure with above-mentioned interior draining ring 71 and external drainage ring 72 with external drainage ring 74, be not described in detail here.

The outlet section 53 of spiral case 5, towards air-supply arrangement 3, is directed towards two heat exchange wind air channels of air-supply arrangement 3 specifically. The outlet section 53 of spiral case 5 is formed oriented air-supply arrangement 3 extend, the ring bag portion 6 in two heat exchange wind air channels of ring bag, form mixed wind chamber between ring bag portion 6 and two heat exchange wind air channels. Specifically, the outlet section of spiral case 5 53 with top backward, bottom incline direction forward towards heat exchange wind air channel, also take advantage of a situation with top backward in ring bag portion 6, incline direction ring bag heat exchange wind air channel forward, bottom. Thus, the wind of spiral case 5 blowout is taken advantage of a situation and is entered mixed wind chamber and heat exchange wind air channel with direction obliquely, and sends with inertia direction obliquely through air-supply arrangement 3. And, ring bag portion 6 from its top, ring bag portion 61 being connected with the outlet section 53 of spiral case 5 downwardly with respect to air-supply arrangement 3 flaring, thus, form the first mixed wind chamber 63 and the second mixed wind chamber 64 of inner chamber flaring in air-supply arrangement 3 left and right sides. And, the straight line of the first mixed wind chamber 63 and the second mixed wind chamber 64 axis to be perpendicular to air-supply arrangement 3 is symmetrical for axis of symmetry. Thus, from the heat exchange wind that the outlet section 53 of spiral case 5 blows out, under restriction in ring bag portion 6 and guiding, enter in the first mixed wind chamber 63 and the second mixed wind chamber 64, and carry out the combing of air-flow, filling at two symmetrical mixed wind intracavity; After mixed wind chamber is full, forms the wind of left and right air quantity, wind speed equalization, then exchange in wind air channels even into two annular heats along air-supply arrangement 3 left and right directions and top.

And, in this embodiment, the distance of the outlet section 53 of the top of air-supply arrangement 3 and spiral case 5 is H1, the distance of the bottom of air-supply arrangement 3 and bottom, ring bag portion 62 is do not mark in H2(figure), H1 is more than H2, and the lower end that air-supply arrangement 3 and bottom, ring bag portion 62 are close proximity to housing, thus, the length in ring bag portion 6 can be elongated, it is provided that wind is sufficiently mixed by the mixed wind chamber of sufficient length. And, it is possible to the drain district forming sufficient length between ring bag portion 6 and the outlet section 53 of spiral case 5 realizes static pressure recovery. In addition, for making the wind direction of wind that air outlet 114 blows out obliquely, except the outlet of the mixing wind of air outlet 114 and interfaced front end wind guiding member 31 is defined to top forward, bottom rearwardly direction downward-sloping except, the bottom of air-supply arrangement 3 is vicinity or bottom, contact ring bag portion 62 as far as possible, make bottom air-supply arrangement 3 each heat exchange wind air channel, only have a small amount of wind to go out, and major part wind is behind the top and middle part blowout in heat exchange wind air channel, direction when sending along through air channel and mixing wind outlet 114 is for obliquely.

It is furthermore preferred that the first heat exchange wind air channel 34 and the second heat exchange wind air channel 35 are so arranged: for each heat exchange wind air channel, the size being sized larger than its underpart on top. Such as, the width convergent from top to bottom in heat exchange wind air channel, thus, form upper-wide and lower-narrow type air channel structure. Owing to top, heat exchange wind air channel width, bottom are narrow, the wind major part blown out from the outlet section 53 of spiral case 5 will blow out through wider heat exchange wind air channel namely middle and upper part place, and then, it is possible to further such that the direction of the wind sent from air outlet 114 is for obliquely.

For centrifugal fan 4, up to standard by the efficiency of heat exchanger heat exchange and complete machine oscillation for ensureing from left and right sides air draught, the axle center M of the centrifugal fan 4 and distance H3 of housing tip should be not less than the 1/4 of overall case height.

Above example is only in order to illustrate technical scheme, but not is limited; Although the present invention being described in detail with reference to previous embodiment, for the person of ordinary skill of the art, still the technical scheme described in previous embodiment can be modified, or wherein portion of techniques feature is carried out equivalent replacement; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of present invention technical scheme required for protection.

Claims (10)

1. a wall-hanging indoor unit of air conditioner, including housing, it is formed with air outlet in the front lower place of described housing, it is formed with side air inlet in the side of described housing, the heat exchanger corresponding with described side air inlet it is formed with in described housing, it is formed with the rear air inlet corresponding with described air outlet in the back lower place of described housing, it is formed with air-supply arrangement in described housing, described air-supply arrangement includes in the middle of at least two through, there is the wind guiding member of front and back opening, it is arranged in order before and after described wind guiding member, through air channel through before and after intermediate formation, described through air channel connects described air outlet and described rear air inlet, heat exchange wind air channel is formed between wind guiding member described in adjacent two, it is characterized in that, in described housing, being formed above spiral case and be positioned at the centrifugal fan of described spiral case of described air-supply arrangement, the outlet section of described spiral case is towards described heat exchange wind air channel, the outlet section of described spiral case is formed the ring bag portion in heat exchange wind air channel described in the extension of oriented described air-supply arrangement, ring bag, between described ring bag portion and described heat exchange wind air channel, forms mixed wind chamber, the inlet section of described spiral case towards described heat exchanger, is formed at the first draining ring within described spiral case with at described scroll outer, the second draining ring between described spiral case inlet section and described heat exchanger on the inlet section of described spiral case.

2. wall-hanging indoor unit of air conditioner according to claim 1, it is characterized in that, described second draining ring includes from described heat exchanger to the arc conduction part of described spiral case internal direction bore convergent, the bore of described arc conduction part drain rear end less than the bore of described first draining ring drain front end, forms described arc conduction part at the first draining ring interior, described inner-outer sleeve stacked flow guiding structure outside.

3. wall-hanging indoor unit of air conditioner according to claim 2, it is characterised in that be formed with flanging outside described arc conduction part, described flanging is formed installation portion, and described second draining ring is arranged on described spiral case by described installation portion.

4. wall-hanging indoor unit of air conditioner according to claim 3, it is characterized in that, described flanging includes the first flange and the second flange that are sequentially connected with, described first flange and described second flange form L-type structure, described first flange is connected with the closing of described arc conduction part drain front end away from one end of described second flange, and described installation portion is formed on described second flange.

5. wall-hanging indoor unit of air conditioner according to claim 4, it is characterized in that, it is formed with air-inducing passage between drain rear end and the drain front end of described first draining ring of described arc conduction part, being formed with cannelure between described first flange and described arc conduction part, the opening of described cannelure is towards described air-inducing passage.

6. wall-hanging indoor unit of air conditioner according to claim 5, it is characterised in that form the height of described arc conduction part of described cannelure medial wall less than the height of described first flange forming described ring slot outside wall.

7. wall-hanging indoor unit of air conditioner according to any one of claim 1 to 6, it is characterized in that, in described air-supply arrangement near open front and the described air outlet of the front end wind guiding member of described air outlet all with top forward, bottom rearwardly direction downward-sloping.

8. wall-hanging indoor unit of air conditioner according to claim 7, it is characterised in that the downward-sloping angle of the open front of described front end wind guiding member and described air outlet is 4 ��-45 ��.

9. wall-hanging indoor unit of air conditioner according to any one of claim 1 to 6, it is characterized in that, described ring bag portion downwardly with respect to described air-supply arrangement flaring, forms the mixed wind chamber of inner chamber flaring from the top being connected with the outlet section of described spiral case in the described air-supply arrangement left and right sides.

10. wall-hanging indoor unit of air conditioner according to any one of claim 1 to 6, it is characterised in that described spiral case outlet section with top backward, bottom incline direction forward is towards described heat exchange wind air channel.